Prior to joining the teaching faculty here in Biological Engineering, I was myself educated at MIT for ten years (this is sometimes derisively referred to as being a "lifer"). I first acquired an S.B. in Chemical Engineering (2001), then a Ph.D. in Polymer Science and Engineering under the auspices of the Department of Materials Science and Engineering (2007). My interest in the interface between biology and materials came about late in my undergraduate career, and I was fortunate to pursue this interest at the graduate level in [http://web.mit.edu/biomaterials Darrell Irvine's lab]. In addition to a challenging and engaging research experience, graduate school offered me a chance to hone my teaching (assistant) chops, first in [http://student.mit.edu/@0760803.28299/catalog/search.cgi?search=3.012&style=verbatim 3.012 (thermodynamics)], then in [http://student.mit.edu/@0760803.28299/catalog/search.cgi?search=20.361&style=verbatim 20.361 (biotechnology)]. I have a passion for the written word, whether reading literature, or enabling effective and elegant science communication. My greatest interest now is in fostering a science-literate citizenry by multiple tacks: at the college instructor level, this means developing the abilities of students to navigate a large body of information, to understand the logic of experimental design, and to communicate their findings to myriad audiences.

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Prior to joining the teaching faculty here in Biological Engineering, I was myself educated at MIT for ten years (this is sometimes derisively referred to as being a "lifer"). I first acquired an S.B. in Chemical Engineering (2001), then a Ph.D. in Polymer Science and Engineering under the auspices of the Department of Materials Science and Engineering (2007). My interest in the interface between biology and materials came about late in my undergraduate career, and I was fortunate to pursue this interest at the graduate level in [http://web.mit.edu/biomaterials Darrell Irvine's lab]. In addition to a challenging and engaging research experience, graduate school offered me a chance to hone my teaching (assistant) chops, first in [http://student.mit.edu/@0760803.28299/catalog/search.cgi?search=3.012&style=verbatim 3.012 (thermodynamics)], then in [http://student.mit.edu/@0760803.28299/catalog/search.cgi?search=20.361&style=verbatim 20.361 (biotechnology)]. I have a passion for the written word, whether reading literature or enabling effective and elegant science communication. My greatest interest now is in fostering a science-literate citizenry by multiple tactics: at the college instructor level, this means developing the abilities of students to navigate a large body of information, to understand the logic of experimental design, and to communicate their findings to myriad audiences.

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==My Role in the Department of Biological Engineering==

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As a technical instructor in Biological Engineering since Fall 2007, I see my role as improving teaching and learning throughout the department wherever possible. My primary responsibility is teaching 20.109, Laboratory Fundamentals of Biological Engineering, and I continue to develop new curriculum and pedagogical approaches in that role. I have designed experimental modules in protein engineering (tuning a fluorescent calcium sensor, with Alan Jasanoff), cell/biomaterial engineering (3D culture of chondrocytes and/or stem cells for cartilage tissue engineering, with Alan Grodzinsky), RNA engineering (enrichment of heme-binding aptamers, with Jacquin Niles), and system engineering (tuning edge-detecting bacteria to improve image contrast, with Ron Weiss). More broadly, I have co-organized our departmental training for graduate teaching assistants for the past few years, each year improving the training by adding components such as a practice teaching session and a talk on teaching in diverse classrooms. I have also playing a leading role in two initiatives as part of the department’s Committee on the Undergraduate program. As chair of the sub-committee on educational practice in 2008, I was the primary author of departmental guidelines for best practices in undergraduate education. As co-chair of the sub-committee on improving writing instruction, I’m currently devising and implementing strategies for improving how our students are trained as scientific writers. Finally, to expand my sense of teaching and learning department-wide, I taught a recitation in our foundational thermodynamics course in 2009, and wrote supplementary instructional material for our instrumentation laboratory class in 2012.

==Core Teaching Values: Goals and Expectations==

==Core Teaching Values: Goals and Expectations==

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* Transparency - I would like to convey to you ''why'' you are learning what you are learning at every stage, and also how you will be held accountable for this knowledge. In turn, I expect you to keep me abreast of any bugs or features of the course.

* Transparency - I would like to convey to you ''why'' you are learning what you are learning at every stage, and also how you will be held accountable for this knowledge. In turn, I expect you to keep me abreast of any bugs or features of the course.

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* Responsibility - I hope to take the basics (keeping up with classwork, being considerate of your labmates) for granted. Rather, I aspire for us to engage in issues both intrinsic and seemingly peripheral to the course, such as the ethical implications of biotechnology.

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* Responsibility - I hope to take the basics (keeping up with classwork, being considerate of your labmates) for granted. I aspire for us to engage with issues both intrinsic and seemingly peripheral to the course, such as the ethical implications of biotechnology.

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* Adaptability - No matter what your next career may be, adapting to unexpected outcomes and redefining your strategy and goals as needed will be vital. In my own work, flexibility and experimentation with pedagogical methods is a priority. Please do not hesitate to give me feedback.

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==Yearly Lessons Learned==

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* Adaptability - No matter what your next career may be, adaptation to unexpected outcomes and the ability to redefine your strategy and goals will be vital. In my own case, flexibility and experimentation with pedagogical methods is a priority. Please do not hesitate to give me feedback.

Contact Information

Background and Education

Prior to joining the teaching faculty here in Biological Engineering, I was myself educated at MIT for ten years (this is sometimes derisively referred to as being a "lifer"). I first acquired an S.B. in Chemical Engineering (2001), then a Ph.D. in Polymer Science and Engineering under the auspices of the Department of Materials Science and Engineering (2007). My interest in the interface between biology and materials came about late in my undergraduate career, and I was fortunate to pursue this interest at the graduate level in Darrell Irvine's lab. In addition to a challenging and engaging research experience, graduate school offered me a chance to hone my teaching (assistant) chops, first in 3.012 (thermodynamics), then in 20.361 (biotechnology). I have a passion for the written word, whether reading literature or enabling effective and elegant science communication. My greatest interest now is in fostering a science-literate citizenry by multiple tactics: at the college instructor level, this means developing the abilities of students to navigate a large body of information, to understand the logic of experimental design, and to communicate their findings to myriad audiences.

My Role in the Department of Biological Engineering

As a technical instructor in Biological Engineering since Fall 2007, I see my role as improving teaching and learning throughout the department wherever possible. My primary responsibility is teaching 20.109, Laboratory Fundamentals of Biological Engineering, and I continue to develop new curriculum and pedagogical approaches in that role. I have designed experimental modules in protein engineering (tuning a fluorescent calcium sensor, with Alan Jasanoff), cell/biomaterial engineering (3D culture of chondrocytes and/or stem cells for cartilage tissue engineering, with Alan Grodzinsky), RNA engineering (enrichment of heme-binding aptamers, with Jacquin Niles), and system engineering (tuning edge-detecting bacteria to improve image contrast, with Ron Weiss). More broadly, I have co-organized our departmental training for graduate teaching assistants for the past few years, each year improving the training by adding components such as a practice teaching session and a talk on teaching in diverse classrooms. I have also playing a leading role in two initiatives as part of the department’s Committee on the Undergraduate program. As chair of the sub-committee on educational practice in 2008, I was the primary author of departmental guidelines for best practices in undergraduate education. As co-chair of the sub-committee on improving writing instruction, I’m currently devising and implementing strategies for improving how our students are trained as scientific writers. Finally, to expand my sense of teaching and learning department-wide, I taught a recitation in our foundational thermodynamics course in 2009, and wrote supplementary instructional material for our instrumentation laboratory class in 2012.

Core Teaching Values: Goals and Expectations

Transparency - I would like to convey to you why you are learning what you are learning at every stage, and also how you will be held accountable for this knowledge. In turn, I expect you to keep me abreast of any bugs or features of the course.

Responsibility - I hope to take the basics (keeping up with classwork, being considerate of your labmates) for granted. I aspire for us to engage with issues both intrinsic and seemingly peripheral to the course, such as the ethical implications of biotechnology.

Adaptability - No matter what your next career may be, adapting to unexpected outcomes and redefining your strategy and goals as needed will be vital. In my own work, flexibility and experimentation with pedagogical methods is a priority. Please do not hesitate to give me feedback.